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Arab Academy for Science, Technology and Maritime Transport

Dr. Ayman Mohamed Hamza

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Climate Change Earth Climate Meteorology Climate Science

Summary

This lecture provides a basic overview of earth climate, with explanations of climate variability and the components of the climate system, including the atmosphere, hydrosphere, lithosphere, biosphere, and cryosphere. It also describes the interactions between these different components and their roles in climate patterns and processes.

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Arab Academy for Science, Technology, and Maritime Transport (AASTMT) Cairo Campus College of Computing and Information HU161 Climate Change and Water Management Ch – Earth Climate Dr. Ayman Mohamed Hamza Constructi...

Arab Academy for Science, Technology, and Maritime Transport (AASTMT) Cairo Campus College of Computing and Information HU161 Climate Change and Water Management Ch – Earth Climate Dr. Ayman Mohamed Hamza Construction & Building Engineering Department, Faculty of Engineering and Technology, AASTMT, Cairo Campus Why Study Climate? For several reasons of which: – Determines the type and location of human-managed ecosystems, such as agricultural farmlands. – Affects the weathering of rock, the type of soil that forms, and the rate of soil formation. – Affects people and society. – Helps to determine the quantity and quality of water available for human use. – Determines the severity of droughts, storms, and floods. – Largely determines the nature and locations of biomes -major terrestrial ecosystems, defined based on their plant communities. 2 Climate Climate is generally defined as a statistical description in terms of the mean and variability of the atmosphere over a period ranging from months to thousands or millions of years and generally for a specified geographical region. Thus, the mean temperature for the month of May in Cairo is obtained from measurements considered representative for Cairo averaged over the month of May from a record of many years (classical period is 30 years). 3 Climate The average-state description involves a wide range of variables depending on what is of interest. Temperature and precipitation are the most commonly used; however, the list may include wind, cloudiness and sunshine, pressure, visibility, humidity and elements with noteworthy human impacts such as severe storms, excessively high and low temperatures, fog, snow and hail. 4 Weather and Climate Here, it is important to identify the difference between weather and climate. Weather involves the description of the atmospheric condition at a single instant of time for a single occurrence. Climate is an average of weather conditions over a period of time including the probability for distributions from this average. 5 Climate and Weather Climate Weather Determined: daily Looked at by the Determined: Over time minutes, hour, day, Looked at by the years Measures week Reported as an average conditions Reported as a forecast Depends on in the atmosphere Depends on the weather the location on Earth occurring mainly to the Weather makes up climate west Climate helps you determine the weather 6 Meteorology – the Study of Weather The field of atmospheric science which is most well-known and of practical importance to the general public is meteorology, the study of weather. Meteorology is usually concerned only with the lowest region of the atmosphere, the troposphere. The advent of weather-monitoring satellites, and of supercomputers, have greatly facilitated the science and application of meteorology in recent years. 7 Climatology – The Study of Weather Statistics, Patterns, and Trends Climatology, the study of climate, differs from meteorology in that climate is the long- term pattern of temperature, precipitation, wind patterns, etc. at a particular location, over periods of a year or more, whereas weather is the current (or very near- term) state of affairs at the location or region of interest. For example, the climate in Antarctica is quite different from that in the Sahara Desert, or the Amazon river basin. Look for other examples 8 Example In Cairo, the hourly temperature in a given day were as presented in the table. Find the daily temperature on this day? Hr Temp (℃) Hr Temp (℃) 1 19 13 27 Answer: 2 18 14 26 calculate the 3 17 15 25 4 16 16 25 mean 5 18 17 24 temperature 6 20 18 23 7 21 19 22 = 21.67 ℃ 8 22 20 21 9 23 21 20 10 24 22 20 11 25 23 19 12 26 24 19 9 Example The following table presents the precipitation gauge records during a given day. Find the daily precipitation on this day? Hr Pr (mm) Hr Pr (mm) 1 0 13 0 2 0 14 1 3 0 15 3 4 0 16 2 Answer: calculate 5 0 17 5 cumulative amount 6 0 18 1 7 1 19 0 = 22 mm 8 3 20 0 9 4.2 21 0 10 0 22 1.8 11 0 23 0 12 0 23 0 10 Characteristics of Egypt Climate Climate Type: Arid The monthly variability in rainfall and mean temperature in Egypt for the period 1960–2010. The wettest months are NDJF and the hottest are MJJAS. Spatial variation maximum and minimum temperatures (°C) and annual mean rainfall (mm) over Egypt for 1979–2013 11 How does climate affect Egypt? For example; Sandstorm Fog Heatwave Heavy Rainfall 12 Climate System The climate system is defined as the five components which directly interact with the atmosphere, and which jointly determine the climate of the atmosphere. The five components are listed below: 1. Atmosphere (all air) 2. Hydrosphere (all water) 3. Biosphere (all living things) 4. Geosphere (solid portion of the earth) 5. Cryosphere (frozen water part of the earth) 13 Climate System Interaction Air Ice Atmosphere Cryosphere Hydrosphere Geosphere Water Land Life Biosphere 14 Earth Climate System 15 16 Earth Climate System The Earth's climate system is a compilation of the following components and their interactions- 1. The atmosphere, includes collection of gases. 2. The hydrosphere, including the oceans and all other reservoirs of water in liquid form, which are the main source of moisture for precipitation and which exchange gases, such as CO2, and particles, such as salt, with the atmosphere. 3. The geosphere, which affects the flow of atmosphere and oceans through their morphology (i.e. topography, vegetation cover and roughness), the hydrological cycle (i.e. their ability to store water) and their radiative properties as matter (solids, liquids, and gases) blown by the winds or ejected from earth's interior in volcanic eruptions. 4. The cryosphere, or the ice component of the climate system, whether on land or at the ocean's surface, that plays a special role in the Earth radiation balance and in determining the properties of the deep ocean. 5. The biosphere - all forms of life - that through respiration and other chemical interactions affects the composition and physical properties air and water. The biosphere is that part of Earth's atmosphere, land, oceans that supports any living plant, animal, or organism. It is the place where plants and animals, including humans, live. Large quantities of carbon dioxide are exchanged between the land-based biosphere and the atmosphere as plants take in carbon dioxide and give off oxygen, and animals inhale oxygen and exhale carbon dioxide. 17 Earth’s Natural Climate Cycle Earth rotates once every 23 hours, 56 minutes and 4 seconds. Earth’s rotation is slowing slightly with time Today is 1.7 ms longer than day one century ago Earth’s Natural Climate Cycle Today, the Earth's axis is tilted 23.5 degrees from the plane of its orbit around the sun. The tilt changes between 22.1 and 24.5 degrees over a cycle of about 40,000 years Earth’s Natural Climate Cycle When Winter in South, Summer in North and vice- versa. When Spring in South, Autumn in North As the tilt changes the season shifts Earth’s Natural Climate Cycle The shape of the Earth's orbit varies between nearly circular (lowest eccentricity of 0.000055) and mildly elliptical (highest eccentricity of 0.0679). These variations occurs with a period of 413,000 years. This caused Ice Ages. Earth’s Natural Climate Cycle The combined effect of these orbital cycles causes long term changes in the amount of sunlight hitting the earth at different seasons. Example: the orbital cycles triggered warming at high latitudes approximately 19,000 years ago, causing large amounts of ice to melt, flooding the oceans with fresh water. Global Energy Flows (W/m2) Earth’s Natural Climate Cycle General Atmospheric Circulation Earth’s Natural Climate Cycle Earth’s Natural Climate Cycle Ocean Circulation has a Large effect on Climate The oceans play a large part of in determining the existing climate of the Earth. It seems to have a crucial influence on climate change due to human activities. Ocean and atmosphere are close interactions and have a strong system. Oceans have high capacity to contain heat compared with the atmosphere driving to gradually raise temperature in the oceans. Oceans redistribute heat throughout the climate system through their internal circulation. Earth’s Natural Climate Cycle Vegetation - Carbon Carbon only affects climate when it is in the atmosphere Gases move through the Earth reservoirs: – Atmosphere – Biosphere (living things) – Lithosphere (solid earth) – Hydrosphere (freshwater and oceans) Earth’s Natural Climate Cycle Snow and Ice The presence or absence of Changes in snow and ice snow and ice affects warming cover affect freshwater and cooling over the Earth’s availability, air temperatures, surface, influencing the sea levels, ocean currents, Earth’s energy balance. and storm patterns. A reduction in snow cover and ice causes the Earth’s surface to absorb more energy from the sun (decreased albedo), which is a positive feedback, causing stronger warming Earth’s Natural Climate Cycle Climate Variability Climate variability refers to variations in the mean state and other statistics (such as the occurrence of extremes, etc.) of the climate on all temporal and spatial scales beyond that of individual weather events. Variability may be due to natural internal processes within the climate system (internal variability), or to variations in natural or anthropogenic external forcing (external variability). 30 Thank You ! 31

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